CN209094416U - A kind of bracelet buckle forming cutting all-in-one machine - Google Patents

Abstract

The utility model belongs to annulus bracelet molding machine technical field, and in particular to a kind of bracelet buckle forming cutting all-in-one machine, including workbench, the workbench are equipped with feeding material component, cutting assembly, rotation clamp assemblies and molding assembly；The feeding material component is set to one end of the workbench, and the cutting assembly, the rotation clamp assemblies and molding assembly are successively distributed along feed direction；Wherein, the rotation clamp assemblies include clamping part and the first driving portion, the second driving portion and third driving portion, first driving portion is suitable for driving the clamping part mobile, second driving portion is suitable for that the clamping part is driven to clamp material, and the third driving portion is suitable for driving the clamping part rotation.By above structure, the utility model comprehensively considers the line sending of the wide line material, shearing and moldings, are integrated into an equipment, realize the automation flowing water processing of wide money bracelet, greatly improve production efficiency.

Description

Bracelet knot shaping all-in-one of tailorring

Technical Field

The utility model belongs to the technical field of the ring bracelet forming device, concretely relates to all-in-one is tailor in bracelet knot shaping.

Background

The noble metal bracelet is one of numerous bracelets, and the style is light in weight and attractive and elegant, so that the noble metal bracelet is popular among people. The traditional circular bracelets are generally divided into two types, one type is a round bracelet with a round section, and the other type is a wide bracelet with a round-corner rectangular section. Most of wide bracelets in the market at present are molded by casting or bending, and the bracelets molded by casting are stable in structure and not easy to deform, but inconvenient to wear; although the bent bracelet is convenient to wear due to certain elasticity, most of the bent bracelets are formed by traditional hands due to the fact that forming equipment is not available on the market, materials need to be cut off manually, and then an operator bends the bracelets into a ring shape by hands or a handheld small tool, so that the bent bracelets are difficult to keep uniform, attractive in appearance and low in efficiency, and cannot meet the high-quality requirements of people on beauty and life.

Therefore, not enough more than, the utility model discloses urgent need provide a bracelet knot shaping all-in-one of tailorring to fill the not enough of wide style bracelet former.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an all-in-one is tailor in bracelet knot shaping to solve among the prior art because of the disappearance of wide style bracelet bending apparatus and lead to the problem that bending apparatus bracelet's production efficiency is low.

The utility model discloses a bracelet clasp forming and cutting integrated machine, which comprises a workbench, wherein a feeding component, a cutting component, a rotary clamping component and a forming component are arranged on the workbench; the feeding assembly is arranged at one end of the workbench, and the cutting assembly, the rotary clamping assembly and the forming assembly are sequentially distributed along the feeding direction; the rotary clamping assembly comprises a clamping portion, a first driving portion, a second driving portion and a third driving portion, the first driving portion is suitable for driving the clamping portion to move, the second driving portion is suitable for driving the clamping portion to clamp materials, and the third driving portion is suitable for driving the clamping portion to rotate.

The bracelet clasp forming and cutting integrated machine further preferably comprises a clamping part and a clamping part, wherein the clamping part comprises a rotating shaft seat, a rotating shaft and a clamping head, the clamping head is arranged at one end of the rotating shaft, and the rotating shaft is movably arranged on the rotating shaft seat; the first driving part comprises a transfer sliding seat and a first air cylinder, and the first air cylinder is arranged on the transfer sliding seat; the rotating shaft seat is slidably mounted on the transferring sliding seat and is suitable for horizontally moving under the driving of the first air cylinder.

In the bracelet clasp forming and cutting all-in-one machine, it is further preferable that the second driving part comprises a second cylinder and an insert rod; the second cylinder is arranged on the rotating shaft seat; one end of the inserted bar is connected with the piston rod of the second cylinder, the other end of the inserted bar is inserted at the tail of the chuck, and the inserted bar is suitable for controlling the chuck to open or clamp under the driving of the second cylinder.

The bracelet clasp forming and cutting integrated machine as described above, further preferably, the third driving portion includes a third cylinder and a rotary rack, the third cylinder is mounted on the rotary shaft seat, one end of the rotary rack is connected with a piston rod of the third cylinder, and a latch of the rotary rack is correspondingly latched with a gear arranged on the outer side of the rotary shaft.

The bracelet clasp forming and cutting integrated machine further preferably comprises a feeding assembly, a first feeding assembly, a second feeding assembly, a fourth driving assembly, a fifth driving assembly and a sixth driving assembly; the fourth driving part is arranged on the first feeding part and is suitable for controlling the first feeding part to clamp or loosen, and the fifth driving part is arranged on the second feeding part and is suitable for controlling the second feeding part to clamp or loosen; the first feeding portion and the second feeding portion are arranged in a straight line along the feeding direction, the first feeding portion is mounted on the workbench, the second feeding portion is mounted on the sixth driving portion, and the second feeding portion is suitable for sliding in a reciprocating mode along the feeding direction under the driving of the sixth driving portion.

The bracelet clasp forming and cutting integrated machine is further preferred that the sixth driving part comprises a first stop block, a second stop block, a sliding rail and a fourth cylinder, wherein the first stop block and the second stop block are respectively installed at two ends of the two sliding rails and are suitable for enabling the two sliding rails to be parallel to the feeding direction; the fourth cylinder is sleeved on the sliding rail, and a piston rod of the fourth cylinder is connected with the first stop block; the second feeding part is installed on the fourth cylinder.

The bracelet clasp forming and cutting integrated machine further preferably comprises a feeding adjusting part, wherein the feeding adjusting part comprises a feeding adjusting disc, and the feeding adjusting disc is suspended above the sliding rail; the feeding adjusting disc is located between the second stop block and the fourth cylinder and provided with a through hole, the through hole is suitable for installing a screw rod, and the screw rod is suitable for limiting the sliding of the fourth cylinder.

The bracelet clasp forming and cutting integrated machine is further preferably characterized in that a plurality of pairs of through holes are uniformly distributed on the periphery of the feeding adjusting disc, and the diameters of the through holes are different.

In the bracelet clasp forming and cutting all-in-one machine, it is further preferable that the forming assembly comprises a forming slider and a seventh driving part; the front end of the forming slide block is provided with a forming groove, and the tail end of the forming slide block is connected with the seventh driving part; the forming slide block is suitable for sliding along the direction perpendicular to the feeding direction under the driving of the seventh driving part.

The bracelet clasp forming and cutting integrated machine further preferably comprises an engraving assembly, the engraving assembly comprises a lettering die, a mounting die holder, a lettering adjusting seat and an eighth driving part, and the mounting die holder is mounted on a workbench; the character printing die and the character printing adjusting seat are arranged on the mounting die seat; the eighth driving part is connected with the lettering die and is suitable for driving the lettering die to slide towards the lettering adjusting seat along the direction perpendicular to the feeding direction.

The utility model discloses a bracelet clasp forming and cutting integrated machine, which comprises a workbench, wherein a feeding component, a cutting component, a rotary clamping component and a forming component are arranged on the workbench; the feeding assembly is arranged at one end of the workbench, and the cutting assembly, the rotary clamping assembly and the forming assembly are sequentially distributed along the feeding direction; the rotary clamping assembly comprises a clamping portion, a first driving portion, a second driving portion and a third driving portion, the first driving portion is suitable for driving the clamping portion to move, the second driving portion is suitable for driving the clamping portion to clamp materials, and the third driving portion is suitable for driving the clamping portion to rotate. Through the device, one end of the cut wide wire is abutted against the forming assembly, and the other end of the cut wide wire rotates and moves along with the rotating and clamping assembly, so that the wide ring bracelet is finally formed. Through the structure, the utility model discloses what synthesize the wide line material send the line, cut and the shaping, synthesize an equipment with it on, realized the automatic pipelining processing of wide style bracelet, greatly improved production efficiency.

Drawings

FIG. 1 is a schematic structural view of the bracelet clasp forming and cutting integrated machine of the present invention;

FIG. 2 is a schematic structural view of the bracelet clasp forming and cutting integrated machine of the present invention;

fig. 3 is the structure schematic diagram of the middle bracelet clasp forming and cutting integrated machine of the utility model.

Description of reference numerals:

100-a workbench;

201-a first feeding part, 202-a second feeding part, 203-a fourth cylinder, 204-a feeding adjusting disc and 205-a wire feeding clamping vertical plate;

301-bottom plate, 302-vertical plate, 303-cutting cylinder seat, 304-cutter seat, 305-cutter limiting plate and 306-cutter;

401-eighth driving part, 402-installation die holder, 403-character die;

601-transfer sliding seat, 602-rotating shaft seat, 603-rotating shaft, 604-clamping head, 605-first cylinder, 606-second cylinder, 607-rotating rack and 608-third cylinder.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1-3, the bracelet clasp forming and cutting integrated machine disclosed in this embodiment includes a workbench 100, wherein the workbench 100 is provided with a feeding assembly, a cutting assembly, a rotary clamping assembly and a forming assembly; the feeding assembly is arranged at one end of the workbench 100, and the cutting assembly, the rotary clamping assembly and the forming assembly are sequentially distributed along the feeding direction; the rotary clamping assembly comprises a clamping portion, a first driving portion, a second driving portion and a third driving portion, the first driving portion is suitable for driving the clamping portion to move, the second driving portion is suitable for driving the clamping portion to clamp materials, and the third driving portion is suitable for driving the clamping portion to rotate. In the structure, the feeding assembly is used for feeding and is suitable for conveying the far end of the metal strip to the forming assembly, the feeding assembly retreats after the rotary clamping assembly clamps the material, the cutting assembly works in the process and is suitable for cutting off the metal strip, at the moment, the side edge of one end of the cut metal strip abuts against the forming assembly, and the other end of the cut metal strip is clamped by the rotary clamping assembly; then rotatory centre gripping subassembly keeps the clamping state and begins the swivelling movement, and wherein, rotation angle is 360, is close to the shaping subassembly during the removal for when rotatory stopping, also support and lean on the shaping subassembly after the rotatory 360 of one end that rotatory centre gripping subassembly was held, and be the horn shape with the other end that supports and lean on the shaping subassembly, later the shaping subassembly work, with the most advanced push flat of horn shape, and then make overall structure be the annular. Thereby completing the forming and cutting of the bracelet clasp. In practical application, the device is mainly applied to processing of gold and silver bracelets, and due to the fact that gold and silver are soft, the elasticity is poor, the ductility is strong, the abutted end cannot be bounced away, and the end which is clamped and rotated can be annular.

As shown in fig. 1 to 3, further, in the bracelet clasp forming and cutting all-in-one machine disclosed in the above embodiment, the clamping portion includes a rotating shaft seat 602, a rotating shaft 603 and a clamping head 604, the clamping head 604 is mounted at one end of the rotating shaft 603, and the rotating shaft 603 is mounted on the rotating shaft seat 602; the first driving unit includes a transfer slider 601 and a first cylinder 605, and the first cylinder 605 is mounted on the transfer slider 601; the rotating shaft base 602 is slidably mounted on the transfer sliding base 601 and adapted to be driven by the first cylinder 605 to horizontally move. The second driving part comprises a second cylinder 606 and an insert rod; the second cylinder 606 is mounted on the rotating shaft base 602; one end of the insertion rod is connected with the piston rod of the second cylinder 606, the other end of the insertion rod is inserted into the tail of the clamping head 604, and the insertion rod is suitable for controlling the clamping head 604 to open or clamp under the driving of the second cylinder 606. The third driving portion comprises a third cylinder 608 and a rotating rack 607, the third cylinder 608 is mounted on the transfer sliding seat 601, one end of the rotating rack 607 is connected with a piston rod of the third cylinder 608, and the latch of the rotating rack is correspondingly clamped with a gear arranged on the outer side of the rotating shaft 603. In this embodiment, the rotating shaft 603 is movably mounted on the rotating shaft base 602 through a rolling bearing, so as to facilitate the rotation of the rotating shaft 603 relative to the rotating shaft base 602; the clamping heads 604 comprise two clamping head 604 single bodies, the middle parts of the two clamping head 604 single bodies are rotatably connected, after the two clamping head 604 single bodies are connected, one ends of the two clamping head 604 single bodies are opened, and the other ends of the two clamping head 604 single bodies are clamped, or vice versa; the rotatable connecting shaft of the chuck 604 is mounted on the shaft 603 and is adapted to move with the shaft 603. The rotating shaft 603 is a hollow sleeve, is suitable for inserting an inserted rod at the tail part of the clamping head 604 and is suitable for controlling the tension of the clamping head 604 monomer; the outer side of the rotating shaft 603 is further provided with a gear, which can be a fixed gear, or an integrally arranged latch, and the gear is matched with the rack and is suitable for converting the linear motion of the rack into the rotating action of the rotating shaft 603. The rack is strip-shaped and is installed in a U-shaped groove formed in the side edge of the rotating shaft base 602, and is suitable for being clamped with the gear of the rotating shaft 603 through a clamping tooth on the side edge of the rack, and the outer side of the rack is pressed through a rack pressing sheet and a rack pressing cover, so that the rack only reciprocates under the motion of the piston rod of the third cylinder 608. In addition, two ends of the rack are also provided with integrally formed stop blocks, so that the whole rack is U-shaped, and the rack is prevented from falling off the rotating shaft seat 602 in the pulling process; the sliding rails of the rotating shaft base 602 and the transferring sliding base 601 sliding correspondingly are also provided with a limit base stop block to prevent the rotating shaft base 602 from slipping. With the above structure, the transfer, rotation and clamping controls are coupled together to achieve the function of a rotating clamping assembly.

As shown in fig. 1 to 3, further, in the bracelet clasp cutting all-in-one machine disclosed in this embodiment, the feeding assembly includes a first feeding portion 201, a second feeding portion 202, a fourth driving portion, a fifth driving portion and a sixth driving portion; the fourth driving part is mounted on the first feeding part 201 and is suitable for driving the first feeding part 201 to clamp or loosen, and the fifth driving part is mounted on the second feeding part 202 and is suitable for driving the second feeding part 202 to clamp or loosen; the first feeding portion 201 and the second feeding portion 202 are linearly arranged along the feeding direction, wherein the first feeding portion 201 is mounted on the workbench 100, and the second feeding portion 202 is mounted on the sixth driving portion and adapted to slide back and forth along the feeding direction under the driving of the sixth driving portion. In the above structure, the first feeding part 201 and the second feeding part 202 both comprise a wire feeding cylinder seat and a wire feeding mold core, wherein the wire feeding mold core comprises two parts, one part of which is fixedly installed in the wire feeding cylinder seat through a wire feeding mold guide post, and the other part of which is sleeved on the wire feeding mold guide post and is suitable for moving on the wire feeding mold guide post; the fourth driving part and the fifth driving part are both air cylinders and are respectively arranged on wire feeding air cylinder seats of the first feeding part 201 and the second feeding part 202, and the piston shafts are respectively connected with wire feeding mold cores which are arranged in a sliding mode, so that the tensioning state of the wire feeding mold cores can be controlled through the fourth driving part and the fifth driving part. The sixth driving part comprises a first stop block, a second stop block, slide rails and a fourth air cylinder 203, wherein the first stop block and the second stop block are respectively arranged at two ends of the two slide rails and are suitable for enabling the two slide rails to be parallel to the feeding direction; the fourth cylinder 203 is sleeved on the slide rail, and a piston rod is connected with the first stop block; the second feeding portion 202 is mounted on the fourth cylinder 203. When the fourth cylinder 203 works, the piston rod in contact with the stop block stretches out and draws back to enable the fourth cylinder 203 to complete two actions of rebounding and resetting on the slide rail, and then the second feeding part 202 mounted on the fourth cylinder 203 is driven to rebound and reset. In an initial state, the fifth driving part controls the second wire feeding part to compress materials, the fourth driving part controls the first wire feeding part to loosen, then the sixth driving part drives the second wire feeding part to move forward along the wire feeding direction to the position of maximum displacement, the second wire feeding part loosens, the first wire feeding part clamps tightly, then the second wire feeding part resets along with the sixth driving part, and after resetting, the second wire feeding part returns to the initial position to complete one-time feeding.

As shown in fig. 1 to 3, preferably, the feeding assembly further includes a feeding adjustment portion, the feeding adjustment portion includes a feeding adjustment disc 204, and the feeding adjustment disc 204 is suspended above the slide rail; the feeding adjusting disc 204 is located between the second stop block and the fourth cylinder 203, through holes are formed in the periphery of the feeding adjusting disc 204, the through holes are suitable for installing screws, and the screws are suitable for limiting the sliding of the fourth cylinder 203. In order to mount the feeding adjusting disk 204, a wire feeding clamping vertical plate 205, a wire feeding adjusting disk shaft and a wire feeding adjusting disk nut are further provided in this embodiment, the wire feeding clamping vertical plate 205 is mounted on the workbench 100, the wire feeding adjusting disk shaft is mounted on the wire feeding clamping vertical plate 205, and the wire feeding adjusting disk is mounted on the wire feeding adjusting disk shaft through the wire feeding adjusting disk nut. The arrangement of the structure is suitable for fastening the wire feeding adjusting disc, and the position of the through hole of the wire feeding adjusting disc is convenient to adjust. The screw is fastened in a through hole of the feeding adjusting disc 204 and is suitable for limiting the sliding displacement of the fourth air cylinder 203 so as to adjust the length of sequential feeding and conveniently prepare bracelets with different lengths. Preferably, a plurality of through holes are uniformly distributed on the periphery of the feeding adjusting disc 204, and the diameters of the through holes increase progressively in the clockwise direction. At present, the length and the diameter of national standard screw rod have fixed size proportion mostly, and the size of bracelet also has multiple specification, then need the screw rod of multiple length, for the screw rod adaptation with multiple length, lay a plurality of through-holes in the week of pay-off adjusting disk 204 in this embodiment, and a plurality of through-holes set up in pairs, and the through-hole diameter of each pair is the same, and increases gradually along the clockwise along the diameter of a plurality of pairs of through-holes. In addition, in this embodiment, the feeding adjustment disc 204 nut, the feeding adjustment disc 204 shaft, and the wire feeding clamping vertical plate 205 are further provided with material holes for materials to pass through, so as to maintain the balance of the materials and facilitate feeding.

As shown in fig. 1 to 3, further, in the bracelet clasp forming and cutting all-in-one machine disclosed in this embodiment, the cutting assembly includes a cutting adjusting seat, a cutting knife seat 304 adjusting screw, a cutting lower die, a lower die pressing gasket, a cutting knife seat 304, a cutting knife limiting plate 305, a cutting knife 306, a cutting cylinder seat 303 and a fifth cylinder, wherein the cutting adjusting seat is L-shaped and includes a bottom plate 301 and a vertical plate 302, the cutting cylinder seat 303 adapted to mount the fifth cylinder is mounted on the other side of the bottom plate 301 so as to be U-shaped with the cutting adjusting seat, when mounted, the bottom plate 301 of the cutting adjusting seat is perpendicular to the feeding direction and is connected with the cutting adjusting screw perpendicular to the feeding direction, which is arranged on the workbench 100, and is adapted to adjust the position of the cutting adjusting seat through the cutting adjusting screw; the inner side of the vertical plate 302 is provided with a horizontal groove, two lower die pressing gaskets are respectively arranged on two sides of the groove, the groove is suitable for being inserted into the cutting lower die, and the lower die pressing gaskets are suitable for pressing the cutting lower die. Along the pay-off direction, be equipped with in cutting off the lower mould and be suitable for the interlude metal strip through-hole, one side still is equipped with the platform that cuts off that is suitable for the operation of cutting off and is suitable for the stopper that cuts off of tool setting. The cutter seat 304 and the cutter limiting plate 305 are arranged in a T shape, wherein the cutter seat 304 is connected with the cutting adjusting seat in a sliding manner, the sliding direction is perpendicular to the feeding direction, the cutter 306 is detachably mounted on the cutter seat 304, the cutter head is perpendicular to the cutting platform, and the cutter seat 304 is suitable for cutting off materials when sliding to the cutter seat 304; the cutter limiting plate 305 is arranged on the other side of the cutter seat 304, is suitable for being connected with the fifth cylinder and is suitable for driving the cutter head to cut off materials through the fifth cylinder.

As shown in fig. 1 to 3, further, in the bracelet clasp-forming and cutting all-in-one machine disclosed in this embodiment, the bracelet clasp-forming and cutting all-in-one machine further includes an engraving assembly, the engraving assembly includes a lettering mold 403, a mounting mold base 402, a lettering adjusting seat and an eighth driving part 401, the mounting mold base 402 is mounted on the workbench 100; the lettering die 403 and the lettering adjusting seat are arranged on the installation die seat 402; the eighth driving part 401 is connected to the lettering mold 403 and is adapted to drive the lettering mold 403 to slide toward the lettering adjusting seat along a direction perpendicular to the feeding direction. In the structure, the character printing adjusting seat is provided with a groove, the two sides of the groove are provided with the imprinting pressing gasket, and the groove is suitable for inserting the lower imprinting die and is pressed by the imprinting pressing gasket.

As shown in fig. 1-3, further, in the bracelet clasp cutting all-in-one machine disclosed in the embodiment, the forming assembly comprises a forming slide block and a seventh driving part; the front end of the forming slide block is provided with a forming groove, and the tail end of the forming slide block is connected with the seventh driving part; the forming slide block is suitable for sliding along the direction perpendicular to the feeding direction under the driving of the seventh driving part. Preferably, in this embodiment, the seventh driving portion includes a forming pressing seat and a sixth cylinder, the forming slider and the sixth cylinder are mounted on the forming pressing seat, and the forming slider is connected to a piston rod of the sixth cylinder.

As shown in fig. 1 to 3, preferably, the above embodiment further includes two adjusting screws arranged parallel to the feeding direction, one of the adjusting screws is connected to the mounting die holder 402 of the imprint module and is adapted to adjust the position of the mounting die holder 402, and the other adjusting screw is connected to the adjusting seat of the rotating shaft 603 provided with the forming pressing seat and the transfer sliding block and is adapted to adjust the positions of the rotating clamping module and the forming module. Furthermore, two adjusting screw rods are connected through belt transmission and are suitable for synchronous adjustment, and locking mechanisms are further arranged on the belts and comprise locking synchronous belt wheels and locking nut seats and are suitable for locking the belts so as to lock the two synchronous belts.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A bracelet buckle forming and cutting integrated machine is characterized by comprising a workbench, wherein a feeding component, a cutting component, a rotary clamping component and a forming component are arranged on the workbench;

the feeding assembly is arranged at one end of the workbench, and the cutting assembly, the rotary clamping assembly and the forming assembly are sequentially distributed along the feeding direction; wherein,

the rotary clamping assembly comprises a clamping portion, a first driving portion, a second driving portion and a third driving portion, the first driving portion is suitable for driving the clamping portion to move, the second driving portion is suitable for driving the clamping portion to clamp materials, and the third driving portion is suitable for driving the clamping portion to rotate.

2. The bracelet clasp forming and cutting integrated machine according to claim 1, wherein the clamping part comprises a rotating shaft seat, a rotating shaft and a clamping head, the clamping head is mounted at one end of the rotating shaft, and the rotating shaft is movably mounted on the rotating shaft seat; the first driving part comprises a transfer sliding seat and a first air cylinder, and the first air cylinder is arranged on the transfer sliding seat; the rotating shaft seat is slidably mounted on the transferring sliding seat and is suitable for horizontally moving under the driving of the first air cylinder.

3. The bracelet clasp forming and cutting all-in-one machine according to claim 2, wherein the second driving part comprises a second air cylinder and a plug rod; the second cylinder is arranged on the rotating shaft seat; one end of the inserted bar is connected with the piston rod of the second cylinder, the other end of the inserted bar is inserted at the tail of the chuck, and the inserted bar is suitable for controlling the chuck to open or clamp under the driving of the second cylinder.

4. The bracelet clasp forming and cutting integrated machine according to claim 3, wherein the third driving portion comprises a third air cylinder and a rotary rack, the third air cylinder is mounted on the rotary shaft seat, one end of the rotary rack is connected with a piston rod of the third air cylinder, and a clamping tooth of the rotary rack is correspondingly clamped with a gear arranged on the outer side of the rotary shaft.

5. The bracelet clasp forming and cutting all-in-one machine according to any one of claims 1 to 4, wherein the feeding assembly comprises a first feeding part, a second feeding part, a fourth driving part, a fifth driving part and a sixth driving part; the fourth driving part is arranged on the first feeding part and is suitable for controlling the first feeding part to clamp or loosen, and the fifth driving part is arranged on the second feeding part and is suitable for controlling the second feeding part to clamp or loosen; the first feeding portion and the second feeding portion are arranged in a straight line along the feeding direction, the first feeding portion is mounted on the workbench, the second feeding portion is mounted on the sixth driving portion, and the second feeding portion is suitable for sliding in a reciprocating mode along the feeding direction under the driving of the sixth driving portion.

6. The bracelet clasp forming and cutting integrated machine according to claim 5, wherein the sixth driving portion comprises a first stop block, a second stop block, a sliding rail and a fourth cylinder, the first stop block and the second stop block are respectively installed at two ends of the two sliding rails and are suitable for enabling the two sliding rails to be parallel to a feeding direction; the fourth cylinder is sleeved on the sliding rail, and a piston rod of the fourth cylinder is connected with the first stop block; the second feeding part is installed on the fourth cylinder.

7. The bracelet clasp forming and cutting all-in-one machine according to claim 6, wherein the feeding assembly further comprises a feeding adjusting part, the feeding adjusting part comprises a feeding adjusting disc, and the feeding adjusting disc is hung above the sliding rail; the feeding adjusting disc is located between the second stop block and the fourth cylinder and provided with a through hole, the through hole is suitable for installing a screw rod, and the screw rod is suitable for limiting the sliding of the fourth cylinder.

8. The bracelet clasp forming and cutting integrated machine according to claim 7, wherein a plurality of pairs of through holes are uniformly distributed on the periphery of the feeding adjusting disc, and the diameters of the through holes are different.

9. The bracelet clasp cutting and assembling machine according to any one of claims 1 to 4, wherein the forming assembly comprises a forming slider and a seventh driving part; the front end of the forming slide block is provided with a forming groove, and the tail end of the forming slide block is connected with the seventh driving part; the forming slide block is suitable for sliding along the direction perpendicular to the feeding direction under the driving of the seventh driving part.

10. The bracelet clasp forming and cutting all-in-one machine according to claim 9, further comprising an engraving assembly, wherein the engraving assembly comprises a lettering die, a mounting die holder, a lettering adjusting seat and an eighth driving part, and the mounting die holder is mounted on a workbench; the character printing die and the character printing adjusting seat are arranged on the mounting die seat; the eighth driving part is connected with the lettering die and is suitable for driving the lettering die to slide towards the lettering adjusting seat along the direction perpendicular to the feeding direction.